Abstract
We demonstrate parabolic single-crystal diamond compound refractive lenses designed for coherent x-ray imaging resilient to extreme thermal and radiation loading expected from next generation light sources. To ensure the preservation of coherence and resilience, the lenses are manufactured from the highest-quality single-crystalline synthetic diamond material grown by a high-pressure high-temperature technique. Picosecond laser milling is applied to machine lenses to parabolic shapes with a ≃1 μm precision and surface roughness. A compound refractive lens comprised of six lenses with a radius of curvature R=200 μm at the vertex of the parabola and a geometrical aperture A=900 μm focuses 10 keV x-ray photons from an undulator source at the Advanced Photon Source facility to a focal spot size of ≃20×90 μm2 with a gain factor of ≃50−100.
Highlights
Sergey Terentyev,1 Vladimir Blank,1 Sergey Polyakov,1 Sergey Zholudev,1 Anatoly Snigirev,2 Maxim Polikarpov,2 Tomasz Kolodziej,3 Jun Qian,3 Hua Zhou,3 and Yuri Shvyd’ko3,a)
We demonstrate parabolic single-crystal diamond compound refractive lenses designed for coherent x-ray imaging resilient to extreme thermal and radiation loading expected from generation light sources
The high degree of coherence, brilliance, and power of the radiation expected from the future x-ray free-electron lasers (XFELs), XFEL oscillators, and diffraction-limited synchrotron radiation sources calls for the development of coherence-preserving optics and for use of new materials that are resilient to extreme thermal and radiation loading
Summary
Sergey Terentyev,1 Vladimir Blank,1 Sergey Polyakov,1 Sergey Zholudev,1 Anatoly Snigirev,2 Maxim Polikarpov,2 Tomasz Kolodziej,3 Jun Qian,3 Hua Zhou,3 and Yuri Shvyd’ko3,a). Parabolic single-crystal diamond lenses for coherent x-ray imaging
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
